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LYMTACs:chimeric small molecules repurpose lysosomal membrane proteins for target protein relocalization and degradation

Author

Listed:
  • Dhanusha A. Nalawansha

    (Amgen Research)

  • Georgios Mazis

    (Ronnegade 8)

  • Gitte Husemoen

    (Ronnegade 8)

  • Kate S. Ashton

    (Amgen Research)

  • Weixian Deng

    (Amgen Research)

  • Ryan P. Wurz

    (Amgen Research)

  • Anh T. Tran

    (Amgen Research)

  • Brian A. Lanman

    (Amgen Research)

  • Jiansong Xie

    (Amgen Research)

  • Robert G. Guenette

    (Amgen Research)

  • Shiqian Li

    (Amgen Research)

  • Christopher E. Smith

    (Amgen Research)

  • Suresh Archunan

    (Syngene Amgen Research & Development Center)

  • Manoj K. Agnihotram

    (Syngene Amgen Research & Development Center)

  • Arghya Sadhukhan

    (Syngene Amgen Research & Development Center)

  • Rajiv Kapoor

    (Syngene Amgen Research & Development Center)

  • Chris Wilde

    (Amgen Research)

  • Sajjan Koirala

    (Amgen Research)

  • Felipe De Sousa E Melo

    (Amgen Research)

  • Patrick Ryan Potts

    (Amgen Research)

Abstract

Proximity-inducing modalities that co-opt cellular pathways offer new opportunities to regulate oncogenic drivers. Inspired by the success of proximity-based chimeras in both intracellular and extracellular target space, here we describe the development of LYsosome Membrane TArgeting Chimeras (LYMTACs) as a small molecule-based platform that functions intracellularly to modulate the membrane proteome. Conceptually, LYMTACs are heterobifunctional small molecules that co-opt short-lived lysosomal membrane proteins (LMPs) as effectors to deliver targets for lysosomal degradation. We demonstrate that a promiscuous kinase inhibitor-based LYMTAC selectively targets membrane proteins for lysosomal degradation via RNF152, a short-lived LMP. We extend this concept by showing that oncogenic KRASG12D signaling can be potently inhibited by LYMTACs. Mechanistically, LYMTACs display multi-pharmacology and exert their activity through both target relocalization into the lysosome and degradation. We further generalize LYMTACs across various LMPs and thus offer a platform to access challenging membrane proteins through targeted protein relocalization and degradation.

Suggested Citation

  • Dhanusha A. Nalawansha & Georgios Mazis & Gitte Husemoen & Kate S. Ashton & Weixian Deng & Ryan P. Wurz & Anh T. Tran & Brian A. Lanman & Jiansong Xie & Robert G. Guenette & Shiqian Li & Christopher E, 2025. "LYMTACs:chimeric small molecules repurpose lysosomal membrane proteins for target protein relocalization and degradation," Nature Communications, Nature, vol. 16(1), pages 1-15, December.
    • Handle: RePEc:nat:natcom:v:16:y:2025:i:1:d:10.1038_s41467-025-63128-4
    DOI: 10.1038/s41467-025-63128-4
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    References listed on IDEAS

    as
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